Evolutionary features of the mitochondrial genome of Ascidiacea (Chordata, Tunicata) at short and long phylogenetic distances
Tesi di Dottorato
Data di Pubblicazione:
2009
Citazione:
Evolutionary features of the mitochondrial genome of Ascidiacea (Chordata, Tunicata) at short and long phylogenetic distances / F. Griggio ; tutor: C. Gissi ; coordinatore: G. Zanetti. DIPARTIMENTO DI SCIENZE BIOMOLECOLARI E BIOTECNOLOGIE, 2009 Jan. 21. ciclo, Anno Accademico 2007/2008.
Abstract:
Evolutionary studies of the mitochondrial genome (mtDNA) have been widely used to
solve phylogenetic controversies and to analyse the mechanisms of whole genome evolution.
Indeed, the availability of several complete mtDNAs have provided, in addition to sequences
of single genes, several whole-genome characters useful to solve phylogenetic questions.
Moreover, the strong correlation between mitochondrial structural features and functional
processes like the replication and transcription of mtDNA increases the importance to deeply
investigate the mitochondrial genomic features. At present, the sequence sample of complete
mtDNAs is biased toward vertebrates, and the sampling within deuterostome groups, such as
hemichordates and tunicates is very poor. The mtDNA of tunicates, traditionally considered
the basal group of chordates, shows several differences from the mtDNAs of remaining
chordates and deuterostomes. Indeed, the tunicate mtDNA presents a different genetic code
compared to that of all other deuterostomes, and encodes for two additional tRNA genes,
trnG(AGR) and trnM(TAT). The trnG(AGR) gene is needed because of the different genetic
code and the second trnM gene is due to the usage of different tRNA-Met as initiator and
elongator. The most interesting feature of tunicate mtDNA is the high gene order variability
compared to remainimg deuterostomes. This extensive gene rearrangement has been found
even at intra genus level (Iannelli et al. 2007a; Iannelli et al. 2007b). However, the mtDNA
has been completely sequenced only in seven tunicate species: six ascidian species (two
Phallusia species and three Ciona species belonging to Phlebobranchiata order; and
Halocynthia roretzi belonging to Stolidobranchiata order) and the Thaliacea Doliolum
nationalis.
In order to deeper analyse the structural features and the evolution of tunicate mtDNA,
in this PhD project, we have sequenced the whole mtDNA of four ascidian species: the
Aplousobranchiata species Clavelina lepadiformis, Clavelina phlegraea (Polycitoridae
family), and Diplosoma listerianum (Didemnidae family); and the Phlebobranchiata species
Ascidiella aspersa (Ascidiidae family). The two Clavelina species and D. listerianum have
been selected in order to have the representatives of the unsampled Aplousobranchiata order
even at intra-genus level. The mtDNA of A. aspersa has been sequenced in order to verify if
the high number of gene rearrangements and the high GC content previously observed in
Phallusia species, belonging to the same family Ascidiidae, are typical features of all
Ascidiidae species. Thus, we have carried out comparative analyses of several mt features. also including the mtDNA of other ascidian species recently sequenced in our laboratory, and
the mtDNA of other deuterostome species available in the public databases.
All tunicate mtDNAs encode for the canonical mt genes but show a variable number
of tRNA genes. This is in accordance with the situation observed in remaining deuterostomes,
where only in few cases there is a variation of the protein gene number while changes of the
tRNA gene number is more frequent. Only the mtDNA of A. aspersa shows an additional
unassignable ORF of uncertain function.
Tunicate mtDNAs show a great variability of gene order, indeed no conserved gene
blocks are shared by all tunicates or by all ascidians. Gene rearrangements at intra-genus level
have been observed in all analyzed congeneric pairs but the extent of gene rearrangements
within the same genus seems to be less pronounced in the Aplousobranchiata order (the two
Clavelina species show the same gene order except for the position of one tRNA gene) than in
the other ascidian orders, although this observation could be the conseque
Tipologia IRIS:
13 - Tesi di dottorato discussa entro ottobre 2010
Elenco autori:
F. Griggio
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